slewing anchor

简明释义

辅助锚

英英释义

例句

1.The ship's stability was ensured by the use of a slewing anchor.

船只的稳定性通过使用旋转锚得以保证。

2.The slewing anchor system is essential for offshore drilling operations.

对于海上钻探作业，旋转锚系统是必不可少的。

3.To secure the barge, they lowered a slewing anchor into the water.

为了固定驳船，他们将旋转锚放入水中。

4.During the storm, the crew deployed the slewing anchor to prevent drifting.

在风暴期间，船员们部署了旋转锚以防止漂流。

5.The slewing anchor helped the vessel maintain its position in rough seas.

在恶劣海况中，旋转锚帮助船只保持其位置。

作文

In the world of engineering and construction, various terms are often used to describe specific techniques and tools that are crucial for the success of a project. One such term is slewing anchor, which refers to a type of anchor that allows for rotational movement while maintaining its anchoring function. This unique capability makes it particularly useful in situations where flexibility and adaptability are required. Understanding the concept of slewing anchor can significantly enhance our comprehension of modern construction methods and their applications.The primary function of a slewing anchor is to provide stability to structures while allowing for some degree of movement. This is especially important in environments that experience dynamic loads, such as wind or seismic activity. Traditional anchors are fixed and do not allow for any movement, which can lead to structural failure if the forces acting on them exceed their capacity. In contrast, a slewing anchor can pivot around its point of attachment, distributing the forces more evenly and reducing the risk of damage.One of the most common applications of slewing anchors is in the construction of large cranes. Cranes need to be anchored securely to withstand the heavy loads they lift, but they also need to rotate to reach different positions. The use of slewing anchors enables cranes to maintain stability while allowing for smooth and efficient movement. This combination of strength and flexibility is essential for ensuring safety and efficiency on construction sites.Another area where slewing anchors prove invaluable is in marine construction. When building offshore platforms or piers, engineers must consider the effects of waves, tides, and currents. A fixed anchor may not be able to withstand these forces, leading to potential failures. By utilizing slewing anchors, marine engineers can ensure that structures remain stable while adapting to changing environmental conditions. This adaptability is crucial for the longevity and safety of marine constructions.Moreover, the design of slewing anchors has evolved with advancements in technology. Modern materials and engineering techniques have led to the creation of lighter yet stronger anchors that can support larger loads. This evolution enhances their application in various sectors, including renewable energy, where they are used to secure wind turbines in offshore locations.In conclusion, the term slewing anchor encompasses a vital concept in engineering that highlights the importance of flexibility in structural integrity. By allowing for rotational movement while providing anchorage, these devices play a critical role in the safety and efficiency of various construction projects. Whether in the context of cranes or marine structures, understanding how slewing anchors function equips engineers and builders with the knowledge necessary to design safer and more resilient infrastructure. As we continue to innovate and expand our capabilities in construction, the significance of concepts like slewing anchor will only grow, paving the way for more advanced engineering solutions in the future.

在工程和建筑的世界中，常常使用各种术语来描述对项目成功至关重要的特定技术和工具。其中一个术语是slewing anchor，它指的是一种锚固装置，允许在保持锚固功能的同时进行旋转运动。这种独特的能力使其在需要灵活性和适应性的情况下特别有用。理解slewing anchor的概念可以显著增强我们对现代建筑方法及其应用的理解。slewing anchor的主要功能是在提供稳定性的同时允许一定程度的运动。这在经历动态载荷的环境中尤其重要，例如风力或地震活动。传统锚固装置是固定的，不允许任何运动，如果施加在它们上的力量超过其承载能力，可能导致结构失效。相比之下，slewing anchor可以围绕其连接点旋转，更均匀地分配力量，从而减少损坏的风险。slewing anchors最常见的应用之一是在大型起重机的建设中。起重机需要安全锚固以承受它们提升的重物，但它们也需要旋转以达到不同的位置。使用slewing anchors使起重机能够在保持稳定的同时实现平稳高效的运动。这种强度与灵活性的结合对于确保施工现场的安全和效率至关重要。另一个slewing anchors证明其不可或缺之处的是海洋建筑。当建造海上平台或码头时，工程师必须考虑波浪、潮汐和水流的影响。固定锚固装置可能无法承受这些力量，从而导致潜在的故障。通过利用slewing anchors，海洋工程师可以确保结构在适应不断变化的环境条件的同时保持稳定。这种适应性对于海洋建筑的耐久性和安全性至关重要。此外，随着技术的进步，slewing anchors的设计也不断演变。现代材料和工程技术的进步使得更轻但更强的锚固装置得以制造，能够支持更大的载荷。这一演变增强了它们在各个领域的应用，包括可再生能源，在那里它们被用于固定离岸风电涡轮机。总之，术语slewing anchor涵盖了工程中的一个重要概念，突显了结构完整性中灵活性的重要性。通过允许旋转运动而提供锚固，这些装置在各种建筑项目的安全性和效率中发挥着关键作用。无论是在起重机还是海洋结构的背景下，理解slewing anchors的功能使工程师和建筑商具备设计更安全、更具韧性的基础设施所需的知识。随着我们继续创新和扩展建筑能力，像slewing anchor这样的概念的重要性只会增加，为未来更先进的工程解决方案铺平道路。